Wire-fabric machine



A. E. BLASHILL.

WIRE FABRIC MACHINE. APPLICATION FlLED SEPT-28, i915. RENEWED MAR. 2,1922.

1,437,489 Patented Dec. 5, 1922.

, 5 SHEETS-SHEET 1. Q 1

A E. BLASHILL.

WIRE FABRIC MACHINE. APPLICATION'FLLED SEPLZB, 191 RENEWED MAB. 2,1922. mmqtsa,

Patented Dec. 5, 1922.

5 SHEETSSHE;T 2

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W #17655 as K 9% ww A. E. BLASHILL.

WIRE FABRIC MACHINE.

RPPLICATION'HLED SEPT-28,1915. RENEWED MAR. 2,1 922.

Patented Dec. 5, 1922.

5 SHEETS-SHEET 3.

A. E. BLA$HELL WIRE FABRIC MACHINE.

APPLICATION FILED SEPT-28.19M- RENEWED MAR. 2.1922.

L ggwiw, mum 9660591922.

5 SHEETSSHET 4.

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1551- H ll I I I M/FESSQS: I 133 3%9 I (qrfiurg' A. E. BLASHILL.

WIRE FABRIC MACHINE. APPLICATION FILED SEPT-2B, 1915- RENEWED MAR. 2,1922. 1 437A89 Patented Rec. 5, 1922.

' 5 SHEETSSHEET 5.

Patented Dec. 5, 1922.

STAT 7;

ar eerie.

ARTHUR E. BLASHILL, 0F WESTMOUNT, QUEBEC, CANADA.

WIRE-FABRIC maonrivn.

Application filed September 28, 1915, Serial No. 53,105.. Renewed March 2, 1922. Serial No. 540,665.

(GRANTED UNDER THE PROVISIONS OF THE ACT OF MARCH 3, 1921, 41 STAT. L., 1313.)

T 0 all whom it may concern.

Be it known that I, ARTHUR E. BLASHTLL, a subject of the King of Great Britain, residin at the city of VVestmount, in the Province of Quebec, Dominion of Canada, have invented certain new and useful Improvements in Wire-Fabric Machines; and I do hereby declare that the following is a full, clear, and exact description of the same.

My invention relates particularly tomachines for making wire fabric, useful more particularly for fence construction; and it has for its object to provide a machine. which will produce fabric of this type con tinuously, no intermission or interval of rest being necessary for any of the several operations in the process of manufacture. There are many kinds of wire fabric suita ble for fence construction, and one of the most widely known is the staple-lock fabric in which staples engage the intersections of the strands and stay-wires and, when their legs are bent, lock these strands and stay-wires rigidly together. It is to the mainufacture'of this particular fabric that my present invention relates, and the machine I have devised produces the finished fabric with a uniform and uninterrupted delivery thereof ready for use.

The invention may be said briefly to con sist of a machine designed and constructed on the rotary principle, that is to say practically all the work is produced by means moving in a circle to perform the functions direct or in connection with fixed parts.

The object of my invention is to provide a machine of this type which will have con tinuous operation and the rate of production and-efliciency of which will be higher than that of the machines for this purpose at present known. To this end the inveu tion may be said, broadly, to consist of a machine built essentially on the rotary principle, and consisting of a series of continuously rotating work-rolls, or more specifi* cally stated, a series of pairs of such work-- rolls carrying means operated successively in conjunction with mechanisms independently carried, to cut successive blanks from a continuously fed stock, then by successive operations form the blanks into locks lock- 'ing together the strands and stay-wires of the fabric, practically the entire series or cycle of operations beingperformed during each. revolution of each pair of woi'lcrolis.

As before stated my present machine for the manufacture of wire fabric for use more particularly in the construction of fences, but, nevertheless, fabrics for other uses may be manufactured by varying cer-- tain parts of the machine, and, thereby, the relationof the fabric elements, without departing from the spirit of my invention. thus producing fabric for the reinforcement of concrete work, or other uses.

The machine has as essentials the series of pairs of work-rolls before mentioned and secondary rolls arranged in different angular positions around certain co-acting parts on the work rolls in the formation of the locks and the connection of the ends of the stays to the marginal strands; a series of the pairs of work-rolls being provided, in additionto the main and secondary rolls there are means for feeding lock wire, strands and stay wires to the work-rolls, the strands being caused to run through the machine continuously and at a constant speed, and they are maintained in fixed relation with the work-rolls, that is to say the paths followed by the strands are so located, a lock wire being fed to each of the work rolls, excepting these coinciding with the margins of the fabric, the lock blanks being cut therefrom successively. These lock blanks are, immediately after being cut. partially formed into locks and brought into engagement with strands. The stay-wires are then fed across the series of work-rolls and stays of the required length are cut therefrom and located in intersection with the strands without interrupting the constancy of the progress of the strands. After this stage the operation the locks are c-ompleted,each being formed to embrace a strand and stay-wire.v The fabric, as it is completed, is wound intobundles, and a feature of this invention is overcoming the unevenness in the tension, thereby helping to secure a uniform length of strand, and securing a uniformly wound bundle. An iniportant featureof the lock-forming mecha-, nism is that less wire is required for the lock than formerly.

"The pairs of Work-rolls are disposed in horizontal series with one roll of each pair higher than the other, and both slightly below the level of the face of an operator of average height, the rolls being furnished with tools, and all the secondary rolls and tools or instrumentalities co-acting with them are located at the side of the workrolls towards the operator, thus bringing all the operations within his view. The upper rolls with their co-acting secondary rolls and mechanisms form the locks in place atta hing the strands and stay-wires together thereby assembling the fabric; and the lower rolls with their co-acting secondary rolls and mechanisms complete the fabric by closing the locks.

For full comprehension, however. of my invention reference must be had to the accompanying drawings forming a part of this specification in which similar reference characters indicate the same parts, and wherein:

Figure 1 is a front elevation of a machine constructed according to my invention;

Fig. 2 is a transverse vertical sectional view taken on line A-A Fig. 1;

Figs. 3, a, 5, e, 7, 8, 9, 10, 11, 12, 13, 1a and 15 are enlarged detail views of the staple lock in its various stages of formation and the mechanisms which successively act upon the lock;

Fig. 16 is an enlarged detail view of the complete lock;

Fig. 17 is an enlarged detail side elevation of the rolls carrying the twisting mech' anism;

Fig. 18 is a front elevation of a portion of the upper roll carrying a part of the twisting mechanism;

Fig. 19 is plan view of the housing con taining the twisting gears and the mechanism for driving the same;

Fig. 20 is an enlarged detail side elevation of a portion of the stay-wire feed-rolls illustrating particularly the circumferential grooves therein;

Fig. 21 is a plan view of the lock wire feed rolls illustrating particularly their relative positions;

Fig. 22. 23 and 24 are face views of the dies illustrated, respectively. in Figs. 10, 11 and 15;

Fig. 241- is a front elevation of the roll for receiving the complete fabric illustrating the governing device therefor and brake in section;

Fi 25 is an end elevation. of the roll. illustrating particularly the governing device carried thereby: and

26 is a side elevation of the brake partly in section.

The fabric-assembling rolls are indicated by the reference numeral 2. and they are mounted rigidly on a shaft 3 and spaced according to the width desired between the strands; and the lock-finishing rolls 4 are correspondingly spaced and mounted rigidly on a. shaft 5, the shafts being mounted in the machine frame and connected by intermeshing gears 6 and 7 to run at the same circumferential speed. The power is transmitted from a shaft 8 through gear 9 to the gear 6 on shaft The end rolls indicated at 10 and 12 (one pair at each end of the machine and consequently at what will be the top and bottom of the fence) are different from the intermediate rolls in that they are designed to twist the ends of the stay wires around the top and bottom or marginal strands. The uppermost end roll 10 of each pair is mounted rigidly on shaft 3. and the lowermost 12 on shaft 5. and the rolls at one end correspond precisely wit-h those at the other. the intermediate rolls being also all precisely the same.

I will first describe the work-rolls and their co-acting secondary rolls and mechanisms. then the mechanisms for feeding the strands, lock-wire and stay-wire, and finally the wind-up means.

The fabric-assembling rolls 2. being the same in all respects. each has an annular chamber 50 formed by the hub 51 and a surrounding flange or wall 52, the rim 53 being. also in the form. of a flange from which. and the flange 52 and the hub. the web is offset. The chamber thus formed between the flanges 52 and 53 is for the purpose of reducing the weight. while the offset web affords material in which are cut a series of radial ways 55 for the tools by which the lock is partially formed. These ways are equal in depth to the width of the rim. and a plate 56 covers each way.

The tools (Figs. 2. 4. 5. 7. 10. 12) consist of. a pair of slide bars '60 and 61 respectively. The tool picks up the lock-blank and constitutes part of the means whereby it is formed into a staple. retains the staple and sustains the pressure while further work is being done. The blank is picked. up by a projecting lip 62 formed by a rabbet presenting shoulder 69 and it is received into and retained by a chamber 63 covered by the sliding tool 61; a vertical slot 64 extending inwardly from the end of the. tool back to within a short distance of the inner end of the chamber. The staple is forced into this chamber by a tool, to be presently de scribed. which is guided in the slot 64.

The tool 61 has its operating end beveled at its forward side. relatively to the direction of rotation of the roll. to present a tapered anvil 65 having its rear side flat to lie flush upon the tool 60. This tool 61 is operated to lie at different times with the nose of the anvil alternately flush with the shoulder and a sufficient distance inward from it to provide space to accommodate the stay.

The means for feeding the lock-Wire, indillU mamas cated at 59, comprises teed rolls tor feeding a group of wires horizontally and substantially right angles to the rolls 2 and 4.- relatively arranged to feed the wires in close order and. in or parallel to the line in which the blanks are out, further devices being): provided to deflect them. from their lines oi. feed to the lines in which they are out. The feed rolls may be of any WQll-lUlOWH type suitable for the purpose. They are mounted in a bracket (Fig. 1) in which they are disposed in staggered relation in side elevation and oblique series in plan view. These teed rolls are, oi? course, arranged in pairs. and in my machine the pairs are posed vertically. In order to group the wires in the smallest possible space for the purpose above mentioned and to attain the required result, I arrange one pair, 80. to supply the first pair of rolls 2 and 4-. The next pair of feed-rolls 81 serve the second pair of rolls 2 and 4.: and being) arranged at a lower level but in the same vertical plane,

and the succeeding'pairs 82 and 83 are at.

the same level as the respective pairs 81 and but offset progressively horizontally; the pair 84 being at the same level as 81 and 82 and further oii'set horizontally. (l ne roller of each pair, the top and bottom roller alternately, is arranged in slightly vertically staggered relation as shown in Figure 1 in order to avoid interference with the wires by the pairs of rollers next to them. The carrying bracket 7 5 is bolted to the end of the machine frame. The lock wires 59 are guided from the feed rollers to the workrolls 2 and 4 through tubes 85 attached to any convenient part of the machine and (our municating with hardened bushings 86 set in brackets 87. The tubes deflect the wires from the feed rollers to the bushings which I are located with their openings at the points where the lock-blanks are cut. The lockblanks are cutfro-m the wires 59 by cutt ng mechanism comprising; a relatively heavy roll 90 mounted rigidly on a shaft 91. and having the cutting tool 92 countersunk in. one side and disposed tangentially to the shaft and protruding: slightly beyond the perimeter of its roll, the tool being held i place by clamping plate 98. roll shaft 91 is located on a level practically midway between theshafts 3 and 5 and in position to place the adjacent side of its perimeter with its'pitch line in in ta position with the pitch line of roll This roll 90 has a segmental plate inserted ther n in the same vertical plane as the slot 64. in the tool 60 and it is fastened rigidly in place by pins 101. The blank is cut by the shearing' action of the cutting; tool witli the end of the bushing and the plate 100 enacts wi h the slot 64 and recess 63 and with them constitutes the means whereby the blank is formed into a staple.

This cuttinpgv As betore mentioned the strand wires in dicated at 1.05 run through the machine continuously, and thisis effected by means which draw them with uniform tension. They J ass upwardly one the side of each of the rolls 90 and are looped over the re spective i 0 01" rolls 2 and and run thence to the \\l11Cl-l'l}J mechanism which presently specifically described.

Immediate y after the staple is formed it is brought into engagement with the strand wire and in order to prevent it slipping tron; chamber 63 before it reaches the wire. a guide plate 110 is encorurtered and straddl il by the staple.

immediately after the staple engages the and wire its legs are bent at rightangles as shown in Figs. 5 and 7. This operation is perfoizi d by revol ing pin 130 adapted to move at double the speed of the staple. It is carried by a roll oft annular form mounted rigidly on a hub having" formed integrally t erewith a pair of? disks 1.33 located at opposite sides of the roll and havinntheir adjacent faces provided with inwardly-facing beveled annular guides 13%. the. purpose of which is to maintain the sta ncin ts proper position relatively to the strand. to have its legs bent. and while being beat as the staple straddles the roll 1531 during" this period of the cycle. the legs are prevented trom being distorted inwardly. The pin 130 is carried in tne roll. and disks. and extends across the spaces between them on each. side the roll. It is thus in position to one the staple legs. In orr er to prevent di cement ot the strand anal and retain the head 1 Gifiqvhile the l hint the roll L; rcnt np' a 1 LulOn int e ected. by the terwed side oi the pie is timed to bear firmly upon the strand and retain it a st roll. 2 there by momentarily prevent (a isplacement the strand and through it keeping theh ead performing its function. The n for rotat g roll 131. is pair-oi .2; ars 0, 1 11 the l: ter hei .iounted on sh re 3 no. the former on a sh ft 14:9 which .17

131.. immediately after the hooked t tool 61 is \F'iijl1 clearance for the stay.

A. eta is picked up hv it lifting table but feature 1 isting' of the tor feeding and gg uiding the stay \Vliuo and cutting of? will he site to ad on each side of the radial line oi" pin and. extending beyond the radial the stays. The stay-wire indicated at is fed across the faces of the series rolls 2 from its orl inal coil b T a measurin feed;

roll 150 (Fig. 1) eoual in one. ential length to the len 1 of the a which length is cut by a c ttrnn tool 15),. counterll sunk in the feed-roll and fastened, in place by a screw 152. rhe companion feeda-oll 154 is flat excepting; for z. shallow circumferential groove 1155 for the wire and the main feed-rollv has a relatively deeper groove also for the wire which is fed in direct. li.,.fizontal line from the top of the 111Z1l11-f88lf0ll 150 through a snide to its position across the faces of the rolls 2. This uide divided into a series of nQCtlOllS car d by the trackets 87 and extending between the rolls the wire being exposed between the enos of the guide sections and across the rolls. Each guide section is securec its opposi ends to a pair of the brackets. and consists of a pair of jaws, (Fig. 2) one 1'78. fastened to the brackets and havinghinged thereto a movable jaw 15?. retainec closed by a spring; 158; one end of each guide section being; flared as at 159 to facilita the entrance of the staywire. Tie roll 1 shaft 5 by a train of gears 1o?) 1159. and 1160. the 1158 bein lo and carried, for the purpose in a bracket, 1161 (see Fig. 1).

The stay is out up too 1531 acting through it against 151. and immediately following the cutting); action. it is picked up by the hooked lifting tables 3 1 to be precm described. Before the ends of the stay are twisted around the marginal stra (is a holding device for the stay-ends is hi v.ght into action. and simultaneously the legs of the staples are bent to inward positions and with the cooperation of the tools and ($1. retain the stay in position on the strands. This 11111711611 bending; of the stapledegs is effected by a roll 165 mounted on a shaft '70 moving: with the same peripheral speed as roll 2 and having: inserted therein a radial female 166 i drii'en froi'n (Figs. 2 and 10) dovetailed in r a l1 protruding end adapted to act upon the staple legs. This protrudin end has snerein and a pair of matrices to receive the correct any faulty relative positi may have. The matrices l ends (those encountered paratively wide and the m are in plan view tapered cumferential grooves. (see Fig; 22) the inner walls or bottoms of the matrices beine; of irregular contour and presentin an abi ment face 167 and a rise or tooth 168 ad apted to intermesh .th the nose ot the anvil and bend the staple-legs down flush upon the anvil. The result is shown in Fig. 10.

When the formation of the staple lock has progressed thus far. the ends are held on the twisting dev ces, which, as before mentioned, have 'coacted with the hooked staples in picking up the stay. and I will now de scribe these twisters.

The end rolls 1O carry the twisting mechanism, and for illustration thereof reference should be had to Figs. 17. 18. and 19.

Each roll 10 preferably consists of three equal sectors united along their radii by a flange 1T0 one side extending the full length of the radius and a short flange 171 both merging into a. hub flange 172, the flanges 170 and-[171 beingbolted together. The flange 1'70 :ias bolted thereon near its r end a twister gear housing 1176 cona pair of :ii'itermeshing gears 17?, 1e latter being driven by a train of L, 179. 180. 181 and 182, the gear 179 being centered upon shaft. 3 and held in fixed position by beir g bolted to the frame of the machine. or otherwise anchored, this particular means not being shown. This 179 is of segmental form. Rotation is imparted to the gears 180, 181 and 182 and. from the latter to 178 and l'ii'by the rotation of the r011 10 with the shaft 3 to which its sectors are clamped.

'The gear 17'? is the twister-gear and it has a radial slot 185 between two of its teeth above the housing. the engaging face 18'? of hook l 'I rooved to engage the end of stay-wire 1- .icated at. 35 clearance space the housing and stub shaft 188 on which tl ogear 181 is mounted being provided by cutting away a portion of one side of the oiuingr sector. During the rotation of the work-il s the s=;:-.;;wire is picked up, as before mentioned. and aft if being picked up and before the twisting action begins the 1' .y ends are held down upon the protruding top of the gear 177, which top constitutes a work-table. v

The lifting-table 341s preferably cast an integral part of the housing and its lifting;- surface is located at a sufficient distance from the center of twisting gear 177 and a cient distance above the work-table presented by the top of this gear to provide necessary clearance for the stay-end to pass aeneath when the twisting is commenced.

The holding device is in the form of a presser foot consisting of a member 190 ip'ures 1'? and 18) pivoted upon a pin 191 in the roll 10 and presenting a toe 192 all its lower surface 193 formed substantially coi'icentrically with the pin 191 when the foot is depressed; a further pivotal connection between this member and the roll being; effected by a pin 19t and the spring 195 bearing between a bracket 196 and'a knuckle 197 pivotally engaging the upper end of tie member. 199 exteni'iling' radially outwards and eircumferentially from pin 1% 'permits the member to turn on the pin 191, and "both slots permit the member to be'raised against the pressure of spring 195. This movement is also yielrtlingly resisted by thespring 195 and themerober is returnedto its normal position with its too protruding as shown in Fig. 18 and resting in close proximity to the top gear of 17?. The function of thispresser foot is to maintain the end of the stay wire in bearing relation with the table presented bv the to) of .e'e ar 177 durin the I, m i D twisting operation, the'fpresser foot rising as the wrapped portion'of the stay-wire end increases the staywire end has been picked up by the twister it rests on the top of the hook 186 and in order to force it into the hook to permit the twister to act upon it, it is displaced tron'i the top of it by a finger 211 a roll 21.0 being mounted upon shaft (the same as roll with? is mounted upon it) and the finger 27.71 is inserted therein with one end protruding and presenting a substantially evcloidal face 212. This protruding end inserts itself above the hook 186 and forces wire inwardly over the top edge of the is 158K, and causes it to drop into the hook, thus inclining the stay-end, and giving to it a helical lead which facilitates the operation of twisting.

The continuedrotation of the work-rolls brii s the mechanism for operating the .er into action. This is causedby a train of gears goal l7?) being a "end-gear and fastened to the end frame of the machine. i The twister atthe opposite side of the machine isoperated by similar semi-gear fastened to an end frame 256 and'the' balance of each semi-gear consists of a cam 250 for coacting with a disk 25 havin a concavity 252 con centric with the cam when in looking positiou. This dish is mounted rigidly upon sh: jiflkh and the effect of disengagement i 1e locking of rear 1.80 and the balance of train nst rotation when they are o" mesh. with .o ear The twisters are l during; 1.00 degrees of the rotation \l n: i

out

(3226i z of the worlo .i he.

immediately fiter the twisting is'fini'shed the partially (:OillPlQlIGd wire fabric is trans 'lerred to roll it after which the staple legs are folded in toforni the lock and the loch coinpre sed and the strand and stayena red and thereby simultaneously crimped, thus link-lung the fabric! This compressing otthe lock and simultaneous crimping of rand and stay during the manipulation of L is fabric is an important feature of my iuachin and these operations and the detail ireohanism are illustrated in Figs. 2,13 and A second sloting in length along the strand. 2 When i in), 180., 181 and loath 15. At this stage of the operation (When a the twisters have performed their function) the locking; staple has assumed the position shown in Fig. 12, "with its legs projecting into roll 2. When transferred to roll 4;

(Fig. 11) it is received in a matrix 260 dovetailedinroll ewith its matrix face protrud The matrix face has a groove 261 extending across the same in a circumferential line and a cross slot 262, of sufficient depth to receive the headof the staple and the stay-wire when the strand is lying in the bottom of thefgroove 26].; and a is slidably carried in a central opening 264 in the matrix and extends completely through the same in a radial direction. The 'transfer' of the Web places the partially finished lock in the matrix 260 in the manner transfer of the locks and the strands and plunger 263 i stay-wireslocked together thereby, the mar-* ginal strands and the ends of the stay-wires twisted around the same are of course also transferred, and the latter are automatically stretched under comparatively heavy tension. This is effected by a oy'cloidal tool carried by the roll 12 mounted'on shaft 5 and consequently driven at the same peripheral speed as'roll 4-. The tool has a protruding. end presenting a cycloidalface. 501 opposite to its direction of rotation and a beveled bearing face 502 doing the stretching, the other face being of cycloidal contour for the purpose of affording clearance for the stay with minimum loss to the bearing sur- 1 face 502. lVhe-n the transfer is being effooted and to accommodate it the latter roll is forn'ied with a chamber 510 intersecting the strand groove in the roll and extending, into theQ-roove to about midway its width. The

tool is arranged to have its bearing face 502 graze the strand-sideof the chamber when this tool intermeshes with the rdll l0 the matrix as shown in Figs. 11 and 12 and j they are folded across the strand and made to lie beside one another tightly claspmg the strand, by folding devlces encountered almostinnnediately after the fabric has been transferred; These folding devices consist of pair of rollers 270 and 27l mounted in I the brackets 87 anddisposed one ahead of or above the other and in position at opposite sides of'the path of the strand and so'disposed as to sli 'htly overlie the strand-wire. iihesoro-llers are Hat with their edges beveled as at and they are mounted on shafts 2T3 rotatably carried in the brackets and adapted to freely rotate; hutthey are not driven except by the friction of the staple legs as they impinge thereon. Tn relation of these rolls and the staywire and staple is clearly illustrated in Figs 2 and 14. As the rotation of roll @l proceeds the one leg of the staple is brought into contact with roller 2Y0 and caused by it to be folded over the strand the strand beneath the stay-wire, and re cesses 305 and 304 which are of sufficient dimensions at 305 to accommodate the head of the staple and at 30% the folded legs when in their proper relative positions as shown in Fig. 16. Plunger 263 has its head 310 located in a slideway 312 in roll 4 in whici slideway a plunger 313 having a trundle roll 311 at its inner end. is slidably mounted.

This roll 4- has a central chamber in which is located acam 315 having. a rise 316, the cam being, held against rotation by an arm 320 fastened to the cam by screws or bolts indicated at 321. The matrix 300 is carried in a. roll 325 mounted on shaft 8 and it is driven at a surface speed equaling that of roll 4. As the rolls rotate the folded legs of the staple at one side of the stay-wire and ahead of the staple at the other side aregradually spread apart by the matrix along whichthe head and legs of the staple are forced to travel; the gradual action being obtained by the rolling action of the matrix face 301 combined with the action of plunger 263 which gradually st-raightens the irregularly folded legs from their position shown in the dotted linesin Figs. 13 and 1 1 to the position shown in Figs. 15 and 16, this rearrangement being caused by. the recess 30% and the gradual creeping of. the compressive force over the face of the matrix from the entrance of recess 304 to a point in radial line with the stay-wire. Just before reaching this point the trundleroll 311 on plunger 313 commences to ride upon cam 316 and the maximum pressure is obtained by the trundle-roll reaching the top of the rise siinultaneously with the stay intersecting a line uniting the center of shafts 5 and 8. This compressive action has the effect of crimping the. inter ecting portions of the strands and the purpose being to curely fix the parts against relative displace ment.

Each strand is made to pass through a combined coiler and tension device sefore passing to the work rolls. Each of these devi( consists of a spindle having a vertically elongated head 801 of well known construction. This spindle is mounted in a sleeve-bearing 803 fastened to the lower beam 257 of the machine. The top and bottom rollers are mounted directly in the head 801, and the intermediate rollers on a swivel plate 805 adapted to be swung to a position at right angles to the head and thus place the. intermediate rollers in. position with the space therebetween in alinement with the axis of the spindle. This permits the wire to be readily threaded therethrough. A latchpin (notshown) yieldinglyretains the plate in its proper operating position. There are a series of these coilers, and the spindle of each has a. spiral gear 810 mounted. rigidly thereon; and the spindles of the. several coilers are caused to operate in unison by a shaft 812 having spiral gears 815 intern'ieshing with the gears 810. The shaft 812' is driven by a sprocket wheel 856 mounted on a clutch 860 and in turn driven by a sprocket wheel and chain 855 and 857 respectively, the wheel 855 being rigidly mounted on driving shaft. 8. The necessary tensional effect to take all slack out of wire before reaching the lock formers, for the purpose of insuring uniformity .of length of the strands. is secured by the resistance of the coiler members to the passage therethrough of the strand wires. \Vithout this application of tension the respective wires would have different degrees of slackness and consequently they would be of difierentlengths. The coilers are automatic in their action, in that their operation depends solely upon the formation of their parts which take movement from the wires as they are pulled there through by the work-rolls and wind-up mechanism. The work done by the coilerparts imparts spiral form to the strands; and the uniform speed of travel of the strands through the machine facilitates the operation of these coilers.

Heretofore there has been considerable disadvantage experienced in collecting the woven fabric as it left the machine. owing to the fact that the winding up or rolling of the fabric was of necessitydone intermittently. Another disadvantage was experienced from the increasing diameter of the roll while being wound. These disadvantages are overcome in my present machine by windup means embodying a governing device rendering the wind-up or take-up action constant in speed and tension. To this end the wind-up mechanism consists of a drum 900 extending the full length of the machine and located on the floor behind it. Power is imparted to the drum by any preferred means from shaft 8, and in order to exert a uniform tension upon the fabric traveling throughthe machine. the governing device just mentioned is provided This governing device consists of the following mechanism. An internal gear wheel 1000 is fastentd rigspeed.

idly to the drum or reel 1001 by screws 1002 or other suitable means, the reel being rotatably mounted on a shaft 1003 supported in suitable bearings. A sleeve 100-1 rotatably carried on this shaft has a spur-gear 1005 upon one end thereof and located within the internal gear 1000; and an annulus 1006 is located between the internal and spur gears and carries a pair of'diametrically oppositely arranged pinions 1007 intermeshim; with both gears. The annulus is an integral part of a driving pulley 1008 driven from countershaft (not shown) by a belt 1009. In order to provide a regulable resistance to the rotation of the spur gear 1005 the sleeve 100 1 is rigidlyconnected to one of the gears 1010 of a rotary pump comprising, as is well known, a. pair of intermeshing gears 1010, 1011 .and a duct 1012 controlled by a valve 1018. I

The operation of this governor is entirely automatic. At the commencement of the bundle, the Wind-up drum, the pulley and the gears 1000, 1005 and 1007 rotate about the common axis 1008 all at about the same speed but as the circumference of the bundle increases with continued winding its speed of rotation must decrease owing to thefact that the fabric is delivered at a constant gear 1000 attached thereto falls below the speed of the driving pulley lUOS the pinions 1007 rotate on their own axes and impart increased s eed to the ear 1005 which through the sleeve 100 1: accelerates the speed of the pump. As the pump increases in speed its resistance increases at a ratio corresponding with the increase in driving power required by the drum to keep the tension uniform on the fabric, and in order to obtain the desired result this ratio must be such as may be stated by the following formula Let R represent the radius of the drum, V the velocity of the pump and P the pressure at the outlet of the pump, then the gearing must be so proportioned that the increase in radius will produce a relatively smaller increase in velocity and a resultant increase in pressure equal proportionately to the increase in radius, thus:

. V I lilinimum equals1 6 1 1 Increase equals 12 1. 115 s 2 As the radius increases tension is prevented the machine, and in order to facilitate the As the. speed of the drum and the ready understanding thereof, I will now set forth briefly the manner in which it is assembled, or, in other words, the relative ar rangement of the parts. i

The aasembZage.

In the pres left pairs and located at the right and left ends of the machine. The shaft 3 supports rolls 2 and 10, and the shaft 5 supports rolls at and 12. The shaft 3 is located at the top of the machine frame and shaft 5 beneath and in a plane extending rearwardly at an angle of 20 from the vertical axial plane of the shaft 3. These shafts are journaled in the end frames 255, 256 which are relatively braced by a heavy tie-beam 257 and a bar 258, or the machine frame may be otherwise constructed to meet requirements. The shafts are braced at eachside of each pair of rolls 2 and a by the tie yokes on brackets 87 steadied on shaft 8 which is made comparatively heavy to enable it to sustain the strain of the lock-forming and stay-- twisting operations in conjunction with the instrumentalitics on thework-roll. The secondary rolls by which the various stages of the operations are'coniple'ted. are arranged around the worlr rolls as follows; referring first. to tl e rolls 2 and 10, the lock wire is fed across the machine in a plane extending at an angle of 32 from the vertical axial plane of shaft 3 tation, and this wire is initially acted upon by the cutting mechanism carried by roll 90 mounted on the shaft 91 journaled in the brackets 87. The axis of this shaft 91 is located in a plane approximately 8 in advance of the cutting planeof the lock wire, considered in the direction of rotation. The

roll 131 which carries the mechanism performing the next step in the operation,

namely the initial bending of the legs of the staple, is mounted upon a shaft 142 also carried by the brackets 87. The axis of this shaft is located in a plane extending at an angle. approximately 20 in advance of the plane of the shaft 91 also considered in the direction ofv travel.

The stay-wire is fed across the work rolls 2 and 10in a plane extending at an angle of approximately 116 from the vertical axial plane of the shaft '3 considered in the di# rection of travel. The mechanisms for further bending the legs of the staples to lock the stay-wire against the strands anflfor 'in advance of the fee stay-wire.

The shafts 91; 1 1-2 and are located in their respective angular planes in an are con centric to the axis of the shaft 5-1 and are not journaled in the end fra e 2555, their ends finishing in the last bracket 87 to the right of the machine. opposite end of the $.11 rue machine however they are extended through the end frame 256 and provided with a train of gears for driving purposes.

After the staples have been acted upon by the various instrumentalities arranged around the roll 2 concentrically thereto they are transferred to the roll st where they are acted upon by the folding rollers 270 and 271. The axial plane of the shaft upon which the roller 210 is mounted extends at an angle of 59 from the vertical a .1 plane of shaft 5 considered in the direction of rotation. ln a plane 16 in advance of and concentrically to the roll l is located the axis of the stub-shaft upon which the roller 271 is mounted. The staple after passing these rollers is acted upon by the roll mounted upon shaft 8. he ends of the shaft 8 are journalcd in the end frames 255 and 256 and its axis is located in a plane 31 in advance of the axis of the roller 2T1 considered in the direction of travel of the strands.

The assembled machine is prepared for operation by threading the strands through the COillQl'S and around the rolls 2 and 1, the ends being attached as usual to the combined wind-up and tension roll, and the lock-wire and the stay-wire feeding mechanisms are charged. The machine is then started.

The first stage in the operation is the feeding of. the strands, the lock-wires and stay-wire.

The second stage is the cutting of the lockwire blank. ll hen lengths of about two and three-quarters inches of this wire have issued from each of the bushings 86 they are cut off by cutters 92 acting in shearing relation with the bushings and rotation of the work-rolls 2 continues these blanks are picked up by the lips 62 upon which they rest bearing against shoulders 69.

The third stage of the operation is the formation of the staple which is done as the rotation of the rolls continues, by the segmental plates 100 of rolls 90. These plates have a peripheral speed equal to that of rolls 2, and as the latter rotate from the point where the lock-wire is cut off to the intersection of radial line through the centers of rolls 2 and 90, the edges of the plates enter the slots 641 in the tools carrying the lock blanks before them and forcing them into the chambers 63 the sides of which turn the ends of the blank outwardly thus forming it into a staple the legs of which protrude radially from the rolls 2. The continued rotation of the work-rolls causes these staples to be carried upwardly to the fourth. stage and durin their passage between these stages the legs straddle guiding plates 110 which maintain the staples in the chambers during this interval.

The fourth stage of the operation is the ei'igageu'ient of the strand wires by the staples the legs of which are made tostraddle the strands. At this point the staples are still guided by plates 110 and this engagement continues until the staple legs extend completely beyond the strands, after which and until the fabric is transferred to rolls to have the staples converted into locks, the staples are held by the strands with their heads in the chambers 63.

The fifth stage of the operation is the bending forward of the legs of the staple. This is caused by rolls 131, the pins 130 of which traveling at double the speed of rolls 2 overtake the legs of the staples and'bend them at right angles to their heads. (See Figs. 2 and 5.) During this bending action the strands and through them the'staples are firmly held against displacement by the cams 135 pressing the strands against rolls 2.

The sixth stage of the operation is the cutting off of a stay-Wire. This is affected by the cutting tool 151 impinging upon rolls and severing the stay-wire. There is only one of these tools on the roll 150 and during each rotation of this roll a length equal to its circumference is severed, such length being pro-determined by the height of fence or width of fabric to be made, the length being suflicient to cover this height or width and have sufficient in addition at each end to be wrapped around the marginal strands.

The seventh stage is the picking up of stay-wire. This is done by rolls 2 through the staples and by the lifting tables 34 0f rolls 10. As rotation progresses the cycloidal fingers 211 intermesh with rolls 10, and at the same time bear upon the ends of the stay and force them beneath the presserfcet 192 and into engagement with the hook The eighth stage of the operation is the bending inwards of the legs to clasp the stay and have their ends within the pitchlines of the rolls 2 thereby confining the stay upon these latter rolls and at the same time imparting to the ends of the stay an inclination to serve as a spiral lead. This is necessary in order to cause the Wrapping of the stay ends around the marginal strands to extend downwardly or in other words to follow the stay. This bending inwardly of the staple ends is caused bythe, tools'166 intermeshing with the protruding ends of tools 60 and 61. Two essential relative positions of the bending tools 166 and tools 60 and 61 augment the strands in preventing displacement of the staples from the chambers 63, the first position presenting abutment face 167 of each tool 166 to the ends of the staple legs, and the second bringing the flanks of teeth 168 into bearing relation with and to slide inwardly over the anvils 65 and thereby bend the staple legs to above-- mentioned positions.

The ninth stage of the operation is the twisting of the ends of the stay around the marginal strands and this operation occupies about 180 degrees of rotation of the rolls 2. This twisting of the stay ends is done by'the hooks 186 driven by the train of gears commencing with segmental gear 179. The hooks are rotated counter-clock wise at the right hand side and clock-wise at the left and (as shown in Figs. 17 and 18), the ends of the stay are wound around the strand and pass beneath the stay between the lifting. tables 34: and the marginalstrands. During this wrapping or twisting operation the twisted end will creep forwardly against the resistance of the presserfeet, the springs 195 being compressed and the slots 199 and 200 accommodating the movement. Immediately the twisting is finished. the hooks and work-tables 177 are locked in position to receive the next stay by the cams 25 0 intermeshing with the concavities 252 in the locking disks 251; the locked condition being maintained until the ends of the next stay-wire are to be acted upon thereby to be twisted.

The tenth stage of the operation is the transfer of the fabric from rolls 2 to rolls This takes place during progress of rotation of the rolls, and when the fabric reaches rolls 4t the staples are backed into dies 260 in which they are held by the ten-. sion of the strands with their legs protruding as shown in Fig. 11.

The eleventh stage of the operation is the bending of the legs of the staples across the strands; and this takes placeduring progression of the rotation by first the left leg of, each staple coming into contact with roll 270 and then the right leg coming into contact with roll 271, and as they are drawn past these rolls they are bent alternately to the positions shown in dotted lines in Figure 14. This action results from the'simple impingement of the legs on the rolls no in dependent operation of the latter being necessary. hen this stage is completed the legs will appear in side view as illustrated in Fig. .13.

The twelfth stage of the operation is the formation of the staples into locks thereby completing the fabric, the tension on the strands remaining constant but additional tension being impartedtothe stay. The compression ofthe staple with its legs folded takes place immediately the rolls 325 bring the matrices 300 into radialaline .ment, relatively to the rolls 4,,with matrices 260, the cams 316 simultaneously coming into the same alinement and driving the plungers-263 outwardly, thus compressing and setting the locks. During this stage the compression is gradual and the folded legs arerolled from their irregular position shown dotted in Fig. 14 to the regular maximum pressure is exerted by the cams 316 through plungers 813 and 310. The

stretching of the stays to sustain the crimping action of these dies is affected by the cycloidal faced fingers 501, and roll 12, which register with the right-hand walls and bear oppositely upon the portions of the stay-wires wrapped, around the marginal strands and impart tension thereto in opposite directions.

I The progressive rotation of the work rolls under the influence of the fabric drawn by the wind-up rollbrings other lock blanks and stays successively into position and spaces them uniformly. During this period uniformity oftension is imparted to the fabric by the hydraulic governor, the governor itself being controlled by the tension of the wind-up roll, which without the governor would increase the tension proportionately as the diameter of the bundle increases. This variation of tension is automatically provided for by the governor as 1. 'In a rotary wire-fabric machine, the

combination with means for causing the strand wire to travel through the machine, means forfeeding "a stay wire across the strand, and means for feeding a length of lock-wire to the point of intersection of the strand and stay wire; of a pair of workrolls substantially equal in diameter constructed and arranged to successively act upon said length in the wrapping of the same around the strand wire and stay wire at their point of intersection.

'2. In a rotarywire-fabric machine, the combination with means for causing a strand wire to travel through the machine, stay wire feeding mechanism, and a pair of workrolls located in the same vertical plane; of a plurality of rolls of'comparatively small diameter mounted in the machine frame and spaced around the peripheries of the rolls in the direction of rotation, said plurality of rolls being constructed and arranged to suecessively co-operate' with the work-rolls 1n fastening the strand and stay wire together.

3. In a rotary wire-fabric machine of the ring-lock type, the combination with a pair of parallel shafts extending from end to end of the machine, a series of pairs of WOl'k-l'OllS mounted upon the said shafts, each pair being located in the same vertical plane, and both rolls of each pair being constructed and arranged to act directly upon their respective looks.

at. In a machine for manufacturing wire fabric of the ring-lock type, the combination with means for causing a strand wire to travel through the machine and means for feeding a stay wire across the strand; of rotary staple-forming mechanism;'rotary means for folding the legs of the staple around the strand and stay wires at their point of intersection in ring-lock form; and

rotary means for compressing the look after the folding operation has been completed.

In a machine for manufacturing wire fabric of the ring lock type, means for causing a strand-wire to travel through the machine; means for forming a staple with its legs straddling the strand; means for bending the legs of the staple; means for feeding a stay-wire across the strand andbetween the same and the bent legs; means for further bending the legs; means for fold ing the bent legs; and means for compressing the folded staple and completing the lock.

6. In a rotary wire fabric machine, the combination with a work-roll and a fixed part in close. proximity to the periphery thereof; of means for feeding lock-wire to the fixed part; a guide for the fed lockwire extending from the feed mechanism to the said fixed part; and rotary means in shearing relation with the said fixed part and arranged to cut predetermined lengths from the fed-Wire.

7. In a rotary machine for manufacturing wire fabric, the combination with a fixed part and lock-wire feeding 1nechanism; of rotary means for cutting predetermined lengths from the fed wire, said means consisting of a roll and a cutting tool mounted upon the roll and in shearing relation with the said fixed part.

8. In a. rotary machine of the type described, the combination with a work-roll, of rotary combined lock-wire and stapleforming mechanism, said mechanism including a rotary cutter and a member movable in. unison with the cutter and constructed and arranged to intersect the periphery of the work-roll.

9. In a rotary wire fabric machine, the combination with a work-roll and a fixed part in close proximity to the periphery cut lengths into staples.

10. In a rotary machine of the type described, the combination of a worh-rollhaving a circumferential groove; a fixed part in close proximity to the periphery of the roll and lockwire feeding mechanism; combined means for cutting predetermined lengths and forming the cut lengths into staples, said means consisting of a roll mounted independentlyof the work-roll; a cutter mounted upon one side of the roll and in shearing relation with the said fixed part, and a segmental plate mounted on theoppositc side of the roll and in. position to register with the circumferential groove of the work-roll.

11. In a wire fabric machine, the combination with a worleroll having a circumferential groove in its periphery and means for feeding lock-wire to the said work-roll, of a roll carrying a cutter constructed and arranged to cut predetermined lengths from the fed lockwire, the periphery of said justmentioned roll having a raised portion adapted to register with the circumferential groove in the work-roll for the purpose of forming the cut lengths into staples.

12. In a. rotary machine for manufacturing wire fabric, means for causing a strand wire to travel through the machine, 1ockwire feeding mechanism, means for cutting predetermined lengths from the fed wire, means for picking up the cut lengths and causing the same to travel in unison with the strand, and means constructed and arranged to form the picked-up lengths into staple-locks. I

13. In a rotary machine of the type described, the combination with a work-roll, rotary staple-forming mechanism, and mechanism constructed and arranged to act upon the legs of the staple; of fixed means located in close proximity to the periphery of the work-roll and between the said mechanisms and constituting a guide for the staple during travel from one mech anism to the other.

14. In a rotary machine of the type described, the combination with a work-roll. rotary staple-forming mechanism, and mechanism constructed and arranged to act upon the'legs of the staple; of fixed means located in close proximity to the periphery memes -nism to the other.

15. In a Wire-fabric machine, the combination of means for causing progressive travel of the strands through the machine, means retaining hook-shaped staples in en gagement with the strands with the legs of the staples straddling thestrands and pro-- jecting transversely thereto; and means supporting stays in position to be picked up and carried by the staples.

1c. in a machine for manufacturing Wire fabric, the combination with a pair of rolls in contiguous tandem 1E3ldl3lO11,,Of means on one of the rolls for partially 'lormii'ig the loclrs on the strands, and means on the other roll for continuing the formationot the locks on the strands, and means for transferring the strands and partially formed locks from one to the other of the rolls Without displacement of the locks relatively to the strands. 1 I a 17. In a rotary'wire fabric machine, the combination With a Work-roll having a pair of dies mounted thereon, said dies having a chamber; lock-Wire feeding mechanism; means for cutting a predetermined length from the fed wireymeans for forcing the cut length into the chamber to form r a staple With its legs protruding therefrom; of means for bendingthe protruding legs of the staple at an angle to the remaining portion thereof Within the chamber.

18. In a rotary wireifabric machine, the,

combination With a continuously rotating V .OI'l -]?Oll having a chamber in its periphery,- said chamber being constructed and arranged to carry a staple therein \yithzits legs protruding, of means rotating ate multiple of the speed of rotation of they 'u'orleroll and adaptedto bend the protruding legs 01? the staple.

19.. In a machineof the type described,

the combination with a continuously rotat ingworlr-roll, of means for retaining a staple thereon, and means constructed and arranged to bend the legs oi the staple, said last-mentioned means consisting of a roll mounted independently of the Work-roll and in position to ,be'straddled by the staple, and a lateral projection on each side of the roll adapted toengage the legs. of the staple.

in machine otthe type described, the combination with a continuously rotat- \TOllC-IOll.COIlStI'ilCtQCl; and arranged to carry a staple thereon, means constructed and arranged to bendthe legs of. the staple, saidlast-mentioned means consisting ot'a roll the periphery of which is provided with a raised portion adapted to prevent disscribed, means for placement of. the staple on the'Work-roll during the bending operation, said roll being mounted rigidly upon a shaft and a,

pair of disks located .on opposite sides of the roll and havin lJllGll' faces arovided with inwardlysfacing annular guides, and

a pin radially opposite thesaid raised por- 1510113116, extending through the said CllSkS,

roll, and: guides in position to engage the legs of the staple, and means for rotating said bending means at a greater speedthan the speed of rotation of the Work-roll.

21. In machine of thetype described, the combination with a WOIk'IOll, of means i101 retaining a staple upon the Work-roll,

a pin mounted independently oi the Workroll, and means for revolving the pin a grcaterspeed than; the speed oi? rotation of the u 'orlr-roll for the purpose of bending the legs or the, staples.

22. 111 a machine for manufacturing Wire fabric, rotary staple-forming mechanism, ro-

tary means for bending the legs of the staple at right angles to the latter, and rotary means independent of the said. bending means for further bending the legs of the staple toztorm a lock.

28. In a machine of the type described, the combination With a Work-roll; oi means for retaining a staple upon the Work-roll; means for feeding a strand Wire to the Work-roll in position to be straddled by the staple; means for bending the legs of the staple; means for feeding a stay-Wire transversely to the strand and between the same and the bent legs of the staple; and means for further bending the legs of the staple forthe purpose of locking theystay-wire uponthe strand.

2 h in .amachine of the typedescribed, the combination With a Work-roll; of means ork-roll and constructedand arranged to interinesh therewith for the purpose of bending thelegs-ott thestaple back uponitseli to form a look, I p a in a rotary machine oil the type deissing the strand Wire to travel through themachine, rotary imians for vfeeding a stay-wire across the strand. and means carried by saul rotary feeding is and rotatablein unison therewith for cut ing a predetermined length from said stay wire.

26. In a machine of the type described, the combination of a Work-roll havingan anvil upon the worlr-roll; means for retaininga staple upon the roll in close proximity to the anvil; androtary means mounted independ cntlyo'f therol] andhaving a radial projection on itsperiphery constructed and arranged to upon the anvil for the purpose of bending the legs ofthestaple.

In a m hine of the t 3e the coniliii'ia on with :i ci grooved Work-roll having a red] ribed,

al chamber;

entially llO of a pair of dies mounted within the chamber with their ends protruding therefrom and havin a vertical slot registering with the circunirerential groove of the work-roll and adapted to receive a strand wire, the protruding end of one of the dies being beveled to present an anvil, and the protruding end Oi the other die being extended and rabbeted to present a loch-blank lifting member and a chamber, such chamber being constructed and arranged to receive the lifted blank for the purpose of forming the blank into a staple with its legs straddling the strand; and means co-acting with the anvil for bending the legs of the staple.

28. In rotary machine of the type described, rotary combined stay-Wire feeding and cutting mechanism, said mechanism consisting of a pair oi continuously rotating feed rolls, said rolls being circumterentially grooved to receive the stay wire therebetween, and cutting tool mounted on or e of said feed foils and adapted to enact with the periphery oi"- the other roll in cutting the stay wire.

r 29. ln-a machine for manufacturing wire fabric, rotary staple forming mechanism and rotary means independent of the said mechanism for folding the legs oi? the staples towards each other across the strands of the fabric.

30. in a rotary machine for manufactiuing wire fabric, the combination with stapleiorming mechanism having a work-roll adapted to retain the staple upon its periphery; of rotary means for folding the legs of the staple towards each. other across the strands of the fabric, said last-mentioned means consisting of a pair of rollers mounted in the machine frame adjacent the periphery of the work-roll and having their axes radially disposed relatively to the latter.

31. In a rotary machine of the type described, the combination with a work-roll and means {or retaining a staple on the 'wor roll, of rotary means for folding the lens ot the staple, consisting of a pair of flat rollers located in close proximity to the periphery or the work-roll and disposed on opposite sides of the middle of the face thereof one slig try in advance of the other with their peripheries overlapping a portion of the said face.

32. In a rotary machine of thetype descriocd, the combination with means for forming a ring-lock, a work-roll constructed and arranged to carry the-lock, and a radial plunger mounted thereon and in position to engage the lock, of a roll mounted independently of the work-roll and having a matrix mounted in its periphery, said matrix being constructed. and aranged to co-act with the plunger in "Flatt ning the ring lock; and means for actuating the plunger.

In a rotary machine of the type described, the combination with means for. forming a ring-lock; a work-roll having a central chamber and having a radial slideway extending from the chamber to its periphery; of means for flattening the ring lock, consisting of a ca m located Within the chamber and retained against rotation by an arm secured to the machine frame, said cam having a rise radially opposite the slide way; a plunger mounted within the slideway and having a trundle roll mounted upon its inner end and constructed and aranged to ride upon the cam and a die upon its outer end; a roll mounted independently of the work-roll, a die mounted in the periphery ol the roll and having a convex matrix race, the die upon the roll and the other die upon tne plunger being adapted to co-act in fiattening the ring lock.

' In a ring-lock wire :tabric machine, tie combination of means for sustaining strands and stays in intersecting relation;

means for partially forming a loci: in engagement with each intersection; locl"-'foi'1n ing. mechanism; means for causing the fabric to travel through the machine during the manufacture thereof; and means for simultaneously completing the lock and crimping each intersecting strand and stay.

35. In a rotary machine of the type described, the combination with a work-roll having a central chamber and radial slideway; means coacting with the work-roll for sustaining strands and stays in intersecting relation; means for forming ring looks at the points otintersection; means for simultaneously compressing each ring lock and crimping the intersection points of the strands and stays, consisting of a cam located within the chamber and retained against rotation by an arm secured to the machine i'rame, saidcain having a rise radially opposite the slideway; a plunger mounted within the slideway and having a trundle roll mounted upon its inner end and constructed and arranged to ride upon the cam;

a die upon the outer end of" the plun r; a

- b ro l: mounted independently of the workroll, a die mounted in the periphery of the roll and 'l'iaving a convex matrix face, the

die upon the roll and the other die upon the plunger being adapted to coact in the simultaneous compression of the ring-lock and crimping of the strands and stays.

36. In a rotary machine of the type described, the combination with means for causing a strand wire to travel through the machine, means for feeding a stay-wire across the strand, and a w0rk-roll; of means for twisting the end of the stay-wire around the strand, said last-mentioned means consisting of a gear mounted upon the workroll having a central opening adapted to receive the strand, a hook upon the gear adjacent the opening and adapted to engage the 1 names;

end of the staywire to be twisted, and means for rotating the said gear during one-half of a revolution of the work-roll.

37. In a rotary machine of the type described, the combination with a Work-roll and twisting mechanism mounted thereon; of means for rotating the said mechanism during one-half of a revolution of the workroll, and means for preventing rotation of the said mechanism during the other half.

38. In a rotary machine of the type described, the combination with a worlnroll, of rotary twisting mechanism carried by the work-roll, means for feeding a stay wire in close proximity to the twisting mechanism, and rotary means for forcing the stay wire into engagement with the said mechanism.

39. In a rotary machine of the type described, rotary twisting mechanism, staywire lifting mechanism, and rotary means for forcing the lifted stay-wire into engagement with the twisting mechanism, said means consisting of a roll located in close proximity to the twisting mechanism and a radial finger mounted in the periphery thereof, and having a cycloidal face adapted to engage the stay-wire.

40. In a machine of the type described, the combination with a work-roll having a circumferential groove in its periphery, a portion of such periphery being cut away and having a housing mounted therein; of twisting mechanism mounted in the said housing, said mechanism consisting of a twister gear, such gear and housing having a radial slot registering with the groove in the work-roll, a hook upon the twister gear adjacent the said slot, and means for rotatmg the said gear during 180 of the rotation of the work-roll, said last-mentioned means consisting of a fixed semi-gear, and gears effecting an operative connection between the twister-gear and fixed gear.

Ll."In a machine of the type described, the combination with a work-roll having a portion of its periphery cut away and a housing mounted therein; of twisting mechanism lo cated within the housing, said mechanism consisting of a twister-gear having a hook; means for rotating the said gear during 180 of the rotation of the work-roll, consisting of a semi-gear centered upon the shaft of the work-roll and held in fixed position by being secured to the machine frame, a stub shaft mounted upon. the work-roll, and gears upon the shaft effecting an operative connection between the semi-gear and twister gear; means for preventing rotation of the twister gear during the remaining 180 of the rotation of the worleroll, said last-mentioned. means consisting of a semi-circular cam centered upon the shaft adjacent the semi-gear and a disk rigidly mounted upon the said stub-shaft, such disk having a concavity adapted to at times register with the periphcry of the cam ihnrthe purpose of preventingji' rotation of the stub-shaft.

152. In a machine of the ty :e described,

the combination with a worleroli, means for causing a series of strands totraveltluough the i'i'iacl'iine, and means for feeding a stay wire across the strands, of means carried by the worn-roll for twisting the ad acent end of the stay wire around one of the strands,

and resilient means carried by the work-roll for retaining the end of the stay wirein engagement with the twisting means, said lastmentioned means consisting of a presser foot carriedby the work-roll and having relative movement thereon, a bracket on the worle roll, and a spring-bearing between the bracket and presser-foot.

4:43 In amaehineof' the type described, the combination with a work-roll having a portion of its periphery cut away and a housing mounted therein; a lifting table mounted upon the housing, means for feeding a staywire across the lifting table, of twisting mechanism located within the housing, said mechanism consisting of a twister-gear having a hook formed integrally therewith, and means for rotating the said gear one-half of a revolution of the work-roll, and means having a scope of operation extending between the lifting table and hook and constructed and arranged to bend the stay-wire for the purpose of bringing the same into engage ment with the hook, the lifting surface of the said table being of suilicient distance above the twister-gear to provide the necessary clearance for the stay-wire end during the twisting operation. a

45. In a machine for producing wire fabric, means for causing a plurality of strandwires to travel through the machine, means for feeding a stay-wire across the strands, means for locking the stay-wire upon the strands, and means for stretching the stay wire after it has been looked upon the strands.

46. In a fabric making machine, wind-up mechanism for the fabric comprising a drum and means for driving thedrum; and automatic mechanism for governing the rotative power thereof consisting of pressure-fluid means having velocity the pressure being commensurate with the velocity and gearing operatively connecting the drum to the said pressure-fluid means. I

47. In a continuously operating fabricmaking machine constructed and arranged to continuously eject the finishedv fabric therefrom; wind-up mechanism znlapted to continuously wind the ejected fabric, said mechanism consisting of a drum, a powerdriven member and a differential gear operatively connecting the power-driven memher to the drum.

$8. In a continuously operating fabricmaking machine constructed and arranged to continuously eject the finished fabric therefrom; wind-up mechanism adapted to continuously wind the ejected fabric said mechanism consisting of a drum, a powerdriven member, a differential gear operatively connecting the power-driven member to the drum; a yielding resistance consisting of a rotary pump including a valve-controlled duct and a pair of intermeshing gears; and means operatively connecting the differential gear through one of said intermeshing gears.

V 49. In a continuously operating machine w1nd-np mechanism for the product of the machine comprising a continuously rotating drum; a rotary power-driven member; an in ternal gear rigidly fastened to the drum, a

spur gear within. and concentric with the internal gear; and pinions carried by the power driven member and adapted to revolve therewith in a path intermediate and in mesh with the gears.

50. In a fabric making machine, wind-up mechanism for the fabric comprising a con tinuously rotating drum; a power-driven member in the form of a belt-drum pulley rigidly fastened to the drum, a spur gear within and concentric with the internal gear; and pinions carried by the powerdriven member and adapted to revolve therewith in a path intermediate and in mesh with the gears.

In testimony whereof I have signed my name to this specification in the presence of two witnesses.

ARTHUR E. BLASHILL.

Witnesses GORDON G. Coonn, WILLIAM Hnwn'rsox. 

